Examples of electrically neutral in the following topics:
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- An ionic formula must satisfy the octet rule for the constituent atoms and electric neutrality for the whole compound.
- Second, the cations and anions are combined in a way that produces a electrically neutral compound.
- Its ionic formula is written as CaCl2, the neutral combination of these ions.
- To create a neutral compound, CaCl2, two 1- chloride ions were needed to balance out the 2+ charge from calcium.
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- Ionic formulas must satisfy the noble gas configurations for the constituent ions and the product compound must be electrically neutral.
- The ionic composition is then defined by the requirement that the resulting compound be electrically neutral overall.
- Therefore, for the resulting compound to be neutral, two bromine anions must combine with one magnesium cation to form magnesium bromide (MgBr2).
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- Molecules are electrically neutral compounds made of multiple atoms bound together by chemical bonds.
- Molecules are neutral and carry no charge; this property distinguishes them from polyatomic ions, such as nitrate (NO3-).
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- In acid-base chemistry, a salt is defined as the ionic compound that results from a neutralization reaction between an acid and a base.
- As such, salts are composed of cations (positively charged ions) and anions (negative ions), and in their unsolvated, solid forms, they are electrically neutral (without a net charge).
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- Polyatomic molecules are electrically neutral groups of three or more atoms held together by covalent bonds.
- Molecules are distinguished from ions by their lack of electrical charge.
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- When electrodes are placed in an electrolyte solution and a voltage is applied, the electrolyte will conduct electricity.
- When electrodes are placed in an electrolyte solution and a voltage is applied, the electrolyte will conduct electricity.
- Here, the electrode reactions convert chemical energy to electrical energy.
- Oxidation of ions or neutral molecules occurs at the anode, and the reduction of ions or neutral molecules occurs at the cathode.
- Neutral molecules can also react at either electrode.
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- If an atom has the same number of protons and electrons, it is electronically neutral.
- However, if the total number of electrons does not equal the number of protons, the atom has a net electrical charge.
- The positive electric charge of a proton is equal in magnitude to the negative charge of an electron; therefore, the net electric charge of an ion is equal to its number of protons minus its number of electrons.
- They are repelled by like electric charges and are attracted to opposite charges.
- Ions can be formed by ionization, which is the process of a neutral atom losing or gaining electrons.
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- It uses a direct electric current (DC) to drive an otherwise non-spontaneous chemical reaction.
- Two electrodes: an electrical conductor that provides the physical interface between the electrical circuit providing the energy and the electrolyte.
- Oxidation of ions or neutral molecules occurs at the anode, and reduction of ions or neutral molecules occurs at the cathode.
- Neutral molecules can also react at either electrode.
- We just saw electric current used to split CuSO4 into its component ions.
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- Although solid ionic compounds do not conduct electricity because there are no free mobile ions or electrons, ionic compounds dissolved in water make an electrically conductive solution.
- In contrast, covalent compounds do not exhibit any electrical conductivity, either in pure form or when dissolved in water.
- The transfer of an electron from a neutral sodium atom to a neutral fluorine atom creates two oppositely charge ions: Na+ and F-.
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- In order to measure the characteristics of individual molecules, a mass spectrometer converts them to ions so that they can be moved about and manipulated by external electric and magnetic fields.
- Some of these ions fragment into smaller cations and neutral fragments.
- Residual energy from the collision may cause the molecular ion to fragment into neutral pieces (colored green) and smaller fragment ions (colored pink and orange).
- The molecular ion is a radical cation, but the fragment ions may either be radical cations (pink) or carbocations (orange), depending on the nature of the neutral fragment.